cc/raster/zero_copy_raster_buffer_provider.cc - chromium/src - Git at Google

 // Copyright 2013 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "cc/raster/zero_copy_raster_buffer_provider.h"

 #include <stdint.h>

 #include <algorithm>

 #include "base/trace_event/process_memory_dump.h"
 #include "base/trace_event/trace_event.h"
 #include "base/trace_event/traced_value.h"
 #include "cc/resources/resource_pool.h"
 #include "components/viz/client/client_resource_provider.h"
 #include "components/viz/common/gpu/context_provider.h"
 #include "components/viz/common/resources/platform_color.h"
 #include "components/viz/common/resources/resource_format_utils.h"
 #include "gpu/command_buffer/client/gpu_memory_buffer_manager.h"
 #include "gpu/command_buffer/client/shared_image_interface.h"
 #include "gpu/command_buffer/common/gpu_memory_buffer_support.h"
 #include "gpu/command_buffer/common/shared_image_trace_utils.h"
 #include "gpu/command_buffer/common/shared_image_usage.h"
 #include "ui/gfx/buffer_format_util.h"
 #include "ui/gfx/gpu_memory_buffer.h"

 namespace cc {
 namespace {

 constexpr static auto kBufferUsage = gfx::BufferUsage::GPU_READ_CPU_READ_WRITE;

 // Subclass for InUsePoolResource that holds ownership of a zero-copy backing
 // and does cleanup of the backing when destroyed.
 class ZeroCopyGpuBacking : public ResourcePool::GpuBacking {
  public:
   ~ZeroCopyGpuBacking() override {
     if (mailbox.IsZero())
       return;
     if (returned_sync_token.HasData())
       shared_image_interface->DestroySharedImage(returned_sync_token, mailbox);
     else if (mailbox_sync_token.HasData())
       shared_image_interface->DestroySharedImage(mailbox_sync_token, mailbox);
   }

   void OnMemoryDump(
       base::trace_event::ProcessMemoryDump* pmd,
       const base::trace_event::MemoryAllocatorDumpGuid& buffer_dump_guid,
       uint64_t tracing_process_id,
       int importance) const override {
     if (!gpu_memory_buffer)
       return;
     gpu_memory_buffer->OnMemoryDump(pmd, buffer_dump_guid, tracing_process_id,
                                     importance);
   }

   // The SharedImageInterface used to clean up the shared image.
   gpu::SharedImageInterface* shared_image_interface = nullptr;
   // The backing for zero-copy gpu resources. The |texture_id| is bound to
   // this.
   std::unique_ptr<gfx::GpuMemoryBuffer> gpu_memory_buffer;
 };

 // RasterBuffer for the zero copy upload, which is given to the raster worker
 // threads for raster/upload.
 class ZeroCopyRasterBufferImpl : public RasterBuffer {
  public:
   ZeroCopyRasterBufferImpl(
       gpu::GpuMemoryBufferManager* gpu_memory_buffer_manager,
       const ResourcePool::InUsePoolResource& in_use_resource,
       ZeroCopyGpuBacking* backing)
       : backing_(backing),
         gpu_memory_buffer_manager_(gpu_memory_buffer_manager),
         resource_size_(in_use_resource.size()),
         resource_format_(in_use_resource.format()),
         resource_color_space_(in_use_resource.color_space()),
         gpu_memory_buffer_(std::move(backing_->gpu_memory_buffer)) {}
   ZeroCopyRasterBufferImpl(const ZeroCopyRasterBufferImpl&) = delete;

   ~ZeroCopyRasterBufferImpl() override {
     // If GpuMemoryBuffer allocation failed (https://crbug.com/554541), then
     // we don't have anything to give to the display compositor, so we report a
     // zero mailbox that will result in checkerboarding.
     if (!gpu_memory_buffer_) {
       DCHECK(backing_->mailbox.IsZero());
       return;
     }

     // This is destroyed on the compositor thread when raster is complete, but
     // before the backing is prepared for export to the display compositor. So
     // we can set up the texture and SyncToken here.
     // TODO(danakj): This could be done with the worker context in Playback. Do
     // we need to do things in IsResourceReadyToDraw() and OrderingBarrier then?
     gpu::SharedImageInterface* sii = backing_->shared_image_interface;
     if (backing_->mailbox.IsZero()) {
       uint32_t usage =
           gpu::SHARED_IMAGE_USAGE_DISPLAY | gpu::SHARED_IMAGE_USAGE_SCANOUT;
       // Make a mailbox for export of the GpuMemoryBuffer to the display
       // compositor.
       backing_->mailbox = sii->CreateSharedImage(gpu_memory_buffer_.get(),
                                                  gpu_memory_buffer_manager_,
                                                  resource_color_space_, usage);
     } else {
       sii->UpdateSharedImage(backing_->returned_sync_token, backing_->mailbox);
     }

     backing_->mailbox_sync_token = sii->GenUnverifiedSyncToken();
     backing_->gpu_memory_buffer = std::move(gpu_memory_buffer_);
   }

   ZeroCopyRasterBufferImpl& operator=(const ZeroCopyRasterBufferImpl&) = delete;

   // Overridden from RasterBuffer:
   void Playback(const RasterSource* raster_source,
                 const gfx::Rect& raster_full_rect,
                 const gfx::Rect& raster_dirty_rect,
                 uint64_t new_content_id,
                 const gfx::AxisTransform2d& transform,
                 const RasterSource::PlaybackSettings& playback_settings,
                 const GURL& url) override {
     TRACE_EVENT0("cc", "ZeroCopyRasterBuffer::Playback");

     if (!gpu_memory_buffer_) {
       gpu_memory_buffer_ = gpu_memory_buffer_manager_->CreateGpuMemoryBuffer(
           resource_size_, viz::BufferFormat(resource_format_), kBufferUsage,
           gpu::kNullSurfaceHandle);
       // Note that GpuMemoryBuffer allocation can fail.
       // https://crbug.com/554541
       if (!gpu_memory_buffer_)
         return;
     }

     DCHECK_EQ(1u, gfx::NumberOfPlanesForBufferFormat(
                       gpu_memory_buffer_->GetFormat()));
     bool rv = gpu_memory_buffer_->Map();
     DCHECK(rv);
     DCHECK(gpu_memory_buffer_->memory(0));
     // RasterBufferProvider::PlaybackToMemory only supports unsigned strides.
     DCHECK_GE(gpu_memory_buffer_->stride(0), 0);

     // TODO(danakj): Implement partial raster with raster_dirty_rect.
     RasterBufferProvider::PlaybackToMemory(
         gpu_memory_buffer_->memory(0), resource_format_, resource_size_,
         gpu_memory_buffer_->stride(0), raster_source, raster_full_rect,
         raster_full_rect, transform, resource_color_space_,
         /*gpu_compositing=*/true, playback_settings);
     gpu_memory_buffer_->Unmap();
   }

  private:
   // This field may only be used on the compositor thread.
   ZeroCopyGpuBacking* backing_;

   // These fields are for use on the worker thread.
   gpu::GpuMemoryBufferManager* gpu_memory_buffer_manager_;
   gfx::Size resource_size_;
   viz::ResourceFormat resource_format_;
   gfx::ColorSpace resource_color_space_;
   std::unique_ptr<gfx::GpuMemoryBuffer> gpu_memory_buffer_;
 };

 }  // namespace

 ZeroCopyRasterBufferProvider::ZeroCopyRasterBufferProvider(
     gpu::GpuMemoryBufferManager* gpu_memory_buffer_manager,
     viz::ContextProvider* compositor_context_provider,
     viz::ResourceFormat tile_format)
     : gpu_memory_buffer_manager_(gpu_memory_buffer_manager),
       compositor_context_provider_(compositor_context_provider),
       tile_format_(tile_format) {}

 ZeroCopyRasterBufferProvider::~ZeroCopyRasterBufferProvider() = default;

 std::unique_ptr<RasterBuffer>
 ZeroCopyRasterBufferProvider::AcquireBufferForRaster(
     const ResourcePool::InUsePoolResource& resource,
     uint64_t resource_content_id,
     uint64_t previous_content_id) {
   if (!resource.gpu_backing()) {
     auto backing = std::make_unique<ZeroCopyGpuBacking>();
     const gpu::Capabilities& caps =
         compositor_context_provider_->ContextCapabilities();
     backing->texture_target = gpu::GetBufferTextureTarget(
         kBufferUsage, BufferFormat(resource.format()), caps);
     backing->overlay_candidate = true;
     // This RasterBufferProvider will modify the resource outside of the
     // GL command stream. So resources should not become available for reuse
     // until they are not in use by the gpu anymore, which a fence is used
     // to determine.
     backing->wait_on_fence_required = true;
     backing->shared_image_interface =
         compositor_context_provider_->SharedImageInterface();
     resource.set_gpu_backing(std::move(backing));
   }
   ZeroCopyGpuBacking* backing =
       static_cast<ZeroCopyGpuBacking*>(resource.gpu_backing());

   return std::make_unique<ZeroCopyRasterBufferImpl>(gpu_memory_buffer_manager_,
                                                     resource, backing);
 }

 void ZeroCopyRasterBufferProvider::Flush() {}

 viz::ResourceFormat ZeroCopyRasterBufferProvider::GetResourceFormat() const {
   return tile_format_;
 }

 bool ZeroCopyRasterBufferProvider::IsResourcePremultiplied() const {
   return true;
 }

 bool ZeroCopyRasterBufferProvider::CanPartialRasterIntoProvidedResource()
     const {
   return false;
 }

 bool ZeroCopyRasterBufferProvider::IsResourceReadyToDraw(
     const ResourcePool::InUsePoolResource& resource) const {
   // Zero-copy resources are immediately ready to draw.
   return true;
 }

 uint64_t ZeroCopyRasterBufferProvider::SetReadyToDrawCallback(
     const std::vector<const ResourcePool::InUsePoolResource*>& resources,
     base::OnceClosure callback,
     uint64_t pending_callback_id) const {
   // Zero-copy resources are immediately ready to draw.
   return 0;
 }

 void ZeroCopyRasterBufferProvider::Shutdown() {}

 bool ZeroCopyRasterBufferProvider::CheckRasterFinishedQueries() {
   return false;
 }

 }  // namespace cc
	// Copyright 2013 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "cc/raster/zero_copy_raster_buffer_provider.h"

	#include <stdint.h>

	#include <algorithm>

	#include "base/trace_event/process_memory_dump.h"
	#include "base/trace_event/trace_event.h"
	#include "base/trace_event/traced_value.h"
	#include "cc/resources/resource_pool.h"
	#include "components/viz/client/client_resource_provider.h"
	#include "components/viz/common/gpu/context_provider.h"
	#include "components/viz/common/resources/platform_color.h"
	#include "components/viz/common/resources/resource_format_utils.h"
	#include "gpu/command_buffer/client/gpu_memory_buffer_manager.h"
	#include "gpu/command_buffer/client/shared_image_interface.h"
	#include "gpu/command_buffer/common/gpu_memory_buffer_support.h"
	#include "gpu/command_buffer/common/shared_image_trace_utils.h"
	#include "gpu/command_buffer/common/shared_image_usage.h"
	#include "ui/gfx/buffer_format_util.h"
	#include "ui/gfx/gpu_memory_buffer.h"

	namespace cc {
	namespace {

	constexpr static auto kBufferUsage = gfx::BufferUsage::GPU_READ_CPU_READ_WRITE;

	// Subclass for InUsePoolResource that holds ownership of a zero-copy backing
	// and does cleanup of the backing when destroyed.
	class ZeroCopyGpuBacking : public ResourcePool::GpuBacking {
	public:
	~ZeroCopyGpuBacking() override {
	if (mailbox.IsZero())
	return;
	if (returned_sync_token.HasData())
	shared_image_interface->DestroySharedImage(returned_sync_token, mailbox);
	else if (mailbox_sync_token.HasData())
	shared_image_interface->DestroySharedImage(mailbox_sync_token, mailbox);
	}

	void OnMemoryDump(
	base::trace_event::ProcessMemoryDump* pmd,
	const base::trace_event::MemoryAllocatorDumpGuid& buffer_dump_guid,
	uint64_t tracing_process_id,
	int importance) const override {
	if (!gpu_memory_buffer)
	return;
	gpu_memory_buffer->OnMemoryDump(pmd, buffer_dump_guid, tracing_process_id,
	importance);
	}

	// The SharedImageInterface used to clean up the shared image.
	gpu::SharedImageInterface* shared_image_interface = nullptr;
	// The backing for zero-copy gpu resources. The \|texture_id\| is bound to
	// this.
	std::unique_ptr<gfx::GpuMemoryBuffer> gpu_memory_buffer;
	};

	// RasterBuffer for the zero copy upload, which is given to the raster worker
	// threads for raster/upload.
	class ZeroCopyRasterBufferImpl : public RasterBuffer {
	public:
	ZeroCopyRasterBufferImpl(
	gpu::GpuMemoryBufferManager* gpu_memory_buffer_manager,
	const ResourcePool::InUsePoolResource& in_use_resource,
	ZeroCopyGpuBacking* backing)
	: backing_(backing),
	gpu_memory_buffer_manager_(gpu_memory_buffer_manager),
	resource_size_(in_use_resource.size()),
	resource_format_(in_use_resource.format()),
	resource_color_space_(in_use_resource.color_space()),
	gpu_memory_buffer_(std::move(backing_->gpu_memory_buffer)) {}
	ZeroCopyRasterBufferImpl(const ZeroCopyRasterBufferImpl&) = delete;

	~ZeroCopyRasterBufferImpl() override {
	// If GpuMemoryBuffer allocation failed (https://crbug.com/554541), then
	// we don't have anything to give to the display compositor, so we report a
	// zero mailbox that will result in checkerboarding.
	if (!gpu_memory_buffer_) {
	DCHECK(backing_->mailbox.IsZero());
	return;
	}

	// This is destroyed on the compositor thread when raster is complete, but
	// before the backing is prepared for export to the display compositor. So
	// we can set up the texture and SyncToken here.
	// TODO(danakj): This could be done with the worker context in Playback. Do
	// we need to do things in IsResourceReadyToDraw() and OrderingBarrier then?
	gpu::SharedImageInterface* sii = backing_->shared_image_interface;
	if (backing_->mailbox.IsZero()) {
	uint32_t usage =
	gpu::SHARED_IMAGE_USAGE_DISPLAY \| gpu::SHARED_IMAGE_USAGE_SCANOUT;
	// Make a mailbox for export of the GpuMemoryBuffer to the display
	// compositor.
	backing_->mailbox = sii->CreateSharedImage(gpu_memory_buffer_.get(),
	gpu_memory_buffer_manager_,
	resource_color_space_, usage);
	} else {
	sii->UpdateSharedImage(backing_->returned_sync_token, backing_->mailbox);
	}

	backing_->mailbox_sync_token = sii->GenUnverifiedSyncToken();
	backing_->gpu_memory_buffer = std::move(gpu_memory_buffer_);
	}

	ZeroCopyRasterBufferImpl& operator=(const ZeroCopyRasterBufferImpl&) = delete;

	// Overridden from RasterBuffer:
	void Playback(const RasterSource* raster_source,
	const gfx::Rect& raster_full_rect,
	const gfx::Rect& raster_dirty_rect,
	uint64_t new_content_id,
	const gfx::AxisTransform2d& transform,
	const RasterSource::PlaybackSettings& playback_settings,
	const GURL& url) override {
	TRACE_EVENT0("cc", "ZeroCopyRasterBuffer::Playback");

	if (!gpu_memory_buffer_) {
	gpu_memory_buffer_ = gpu_memory_buffer_manager_->CreateGpuMemoryBuffer(
	resource_size_, viz::BufferFormat(resource_format_), kBufferUsage,
	gpu::kNullSurfaceHandle);
	// Note that GpuMemoryBuffer allocation can fail.
	// https://crbug.com/554541
	if (!gpu_memory_buffer_)
	return;
	}

	DCHECK_EQ(1u, gfx::NumberOfPlanesForBufferFormat(
	gpu_memory_buffer_->GetFormat()));
	bool rv = gpu_memory_buffer_->Map();
	DCHECK(rv);
	DCHECK(gpu_memory_buffer_->memory(0));
	// RasterBufferProvider::PlaybackToMemory only supports unsigned strides.
	DCHECK_GE(gpu_memory_buffer_->stride(0), 0);

	// TODO(danakj): Implement partial raster with raster_dirty_rect.
	RasterBufferProvider::PlaybackToMemory(
	gpu_memory_buffer_->memory(0), resource_format_, resource_size_,
	gpu_memory_buffer_->stride(0), raster_source, raster_full_rect,
	raster_full_rect, transform, resource_color_space_,
	/gpu_compositing=/true, playback_settings);
	gpu_memory_buffer_->Unmap();
	}

	private:
	// This field may only be used on the compositor thread.
	ZeroCopyGpuBacking* backing_;

	// These fields are for use on the worker thread.
	gpu::GpuMemoryBufferManager* gpu_memory_buffer_manager_;
	gfx::Size resource_size_;
	viz::ResourceFormat resource_format_;
	gfx::ColorSpace resource_color_space_;
	std::unique_ptr<gfx::GpuMemoryBuffer> gpu_memory_buffer_;
	};

	} // namespace

	ZeroCopyRasterBufferProvider::ZeroCopyRasterBufferProvider(
	gpu::GpuMemoryBufferManager* gpu_memory_buffer_manager,
	viz::ContextProvider* compositor_context_provider,
	viz::ResourceFormat tile_format)
	: gpu_memory_buffer_manager_(gpu_memory_buffer_manager),
	compositor_context_provider_(compositor_context_provider),
	tile_format_(tile_format) {}

	ZeroCopyRasterBufferProvider::~ZeroCopyRasterBufferProvider() = default;

	std::unique_ptr<RasterBuffer>
	ZeroCopyRasterBufferProvider::AcquireBufferForRaster(
	const ResourcePool::InUsePoolResource& resource,
	uint64_t resource_content_id,
	uint64_t previous_content_id) {
	if (!resource.gpu_backing()) {
	auto backing = std::make_unique<ZeroCopyGpuBacking>();
	const gpu::Capabilities& caps =
	compositor_context_provider_->ContextCapabilities();
	backing->texture_target = gpu::GetBufferTextureTarget(
	kBufferUsage, BufferFormat(resource.format()), caps);
	backing->overlay_candidate = true;
	// This RasterBufferProvider will modify the resource outside of the
	// GL command stream. So resources should not become available for reuse
	// until they are not in use by the gpu anymore, which a fence is used
	// to determine.
	backing->wait_on_fence_required = true;
	backing->shared_image_interface =
	compositor_context_provider_->SharedImageInterface();
	resource.set_gpu_backing(std::move(backing));
	}
	ZeroCopyGpuBacking* backing =
	static_cast<ZeroCopyGpuBacking*>(resource.gpu_backing());

	return std::make_unique<ZeroCopyRasterBufferImpl>(gpu_memory_buffer_manager_,
	resource, backing);
	}

	void ZeroCopyRasterBufferProvider::Flush() {}

	viz::ResourceFormat ZeroCopyRasterBufferProvider::GetResourceFormat() const {
	return tile_format_;
	}

	bool ZeroCopyRasterBufferProvider::IsResourcePremultiplied() const {
	return true;
	}

	bool ZeroCopyRasterBufferProvider::CanPartialRasterIntoProvidedResource()
	const {
	return false;
	}

	bool ZeroCopyRasterBufferProvider::IsResourceReadyToDraw(
	const ResourcePool::InUsePoolResource& resource) const {
	// Zero-copy resources are immediately ready to draw.
	return true;
	}

	uint64_t ZeroCopyRasterBufferProvider::SetReadyToDrawCallback(
	const std::vector<const ResourcePool::InUsePoolResource*>& resources,
	base::OnceClosure callback,
	uint64_t pending_callback_id) const {
	// Zero-copy resources are immediately ready to draw.
	return 0;
	}

	void ZeroCopyRasterBufferProvider::Shutdown() {}

	bool ZeroCopyRasterBufferProvider::CheckRasterFinishedQueries() {
	return false;
	}

	} // namespace cc